U.S. patent application number 13/301226 was filed with the patent office on 2012-03-15 for apparatus having one or more removable tools.
Invention is credited to Launce R. Barber, Thomas R. Stokes.
Application Number | 20120063625 13/301226 |
Document ID | / |
Family ID | 41213554 |
Filed Date | 2012-03-15 |
United States Patent
Application |
20120063625 |
Kind Code |
A1 |
Barber; Launce R. ; et
al. |
March 15, 2012 |
APPARATUS HAVING ONE OR MORE REMOVABLE TOOLS
Abstract
An apparatus includes a frame having an opening, a gate
mechanism partially bounding the opening, at least one tool
receiving section, and a power source. The apparatus includes at
least one electronic device configured to be received in the at
least one tool receiving section. The frame is configured to
provide electrical power to the electronic device via the power
source when the electronic device is received in the at least one
tool receiving section, and the gate mechanism comprises a gate
coupled to the frame, the gate being movable relative to the frame
to permit access to the opening.
Inventors: |
Barber; Launce R.;
(Bradenton, FL) ; Stokes; Thomas R.;
(Williamsburg, VA) |
Family ID: |
41213554 |
Appl. No.: |
13/301226 |
Filed: |
November 21, 2011 |
Related U.S. Patent Documents
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Application
Number |
Filing Date |
Patent Number |
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12429846 |
Apr 24, 2009 |
8087115 |
|
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13301226 |
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61125479 |
Apr 25, 2008 |
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Current U.S.
Class: |
381/333 ;
361/679.01; 361/679.02; 361/807; 381/365; 381/380; 463/46 |
Current CPC
Class: |
B25F 1/04 20130101; B25G
1/085 20130101; B26B 11/008 20130101 |
Class at
Publication: |
381/333 ; 463/46;
361/807; 361/679.02; 361/679.01; 381/380; 381/365 |
International
Class: |
H04R 1/02 20060101
H04R001/02; H04R 1/10 20060101 H04R001/10; G06F 1/16 20060101
G06F001/16; A63F 13/08 20060101 A63F013/08; H05K 7/00 20060101
H05K007/00 |
Claims
1. An apparatus, comprising: a frame having an opening, a gate
mechanism partially bounding the opening, a first tool receiving
section, and a second tool receiving section; a first electronic
device configured to be received in the first tool receiving
section, the first electronic device having a display screen; and a
second electronic device configured to be received in the second
tool receiving section, wherein the second electronic device is
configured to be electrically coupled to the first electronic
device through the frame when the first and second electronic
devices are received in the first and second tool receiving
sections, respectively, and the gate mechanism includes a gate
coupled to the frame that is movable relative to the frame to
permit access to the opening.
2. The apparatus of claim 1, wherein the first and second
electronic device are configured so they can be electrically
coupled to one another after removal from the frame.
3. The apparatus of claim 1, wherein the first and second
electronic devices comprise a computer system.
4. The apparatus of claim 1, wherein the first and second
electronic devices comprise a gaming system.
5. The apparatus of claim 1, wherein both of the first and second
electrical devices include external display screens thereon.
6. The apparatus of claim 1, wherein one or both of the first and
second electrical devices includes an external display section that
flips up or down to reveal at least one internal display screen, an
input area, or both.
7. The apparatus of claim 1, wherein one of the first and second
electrical devices includes one or more speakers affixed
thereto.
8. An apparatus, comprising: a frame, the frame having a power
source, a first opening on at a first end adjacent a first tool
receiving section and a second opening at a second end of the frame
opposite the first and below the first opening, the second opening
adjacent a second tool receiving section; a first electronic device
configured to be received in the first tool receiving section, the
first electronic device having one of an output device and an input
device thereon; and a second electronic device configured to be
received in the second tool receiving section, the second
electronic device having one of an output device and an input
device thereon, wherein the frame is configured to provide
electrical power to one or both the first and second electronic
devices via the power source.
9. The apparatus of claim 8, wherein the frame further comprises a
hand-crank configured to generate power to the power source.
10. The apparatus of claim 8, wherein the frame further comprises a
line-out configured to receive an electrical input and to provide
power from the power source to an external electronic device via
the electrical input.
11. The apparatus of claim 10, wherein the frame comprises a
rechargeable power source that can be recharged by plugging the
rechargeable power source into the line-out.
12. The apparatus of claim 8, wherein the power source powers one
or both of the first and second electronic devices when the first
or second electronic device is received in its corresponding first
or second tool receiving section.
13. The apparatus of claim 8, further comprising a gate coupled to
the frame at each of the first and second openings and movable
relative to the frame to permit access to the corresponding
opening.
14. An apparatus, comprising: a frame, the frame having an opening,
a gate mechanism partially bounding the opening, at least one tool
receiving section, and a power source; and a communication device
configured to be slidably received in the at least one tool
receiving section, wherein the frame is configured to provide
electrical power to the communication device via the power source,
and the gate mechanism comprises a gate coupled to the frame, the
gate being movable relative to the frame to permit access to the
opening.
15. The apparatus of claim 14, wherein the communication device
includes a screen for displaying information received thereby and a
touch pad for inputting information thereto.
16. The apparatus of claim 14, wherein the communication device
includes an ear piece removably attached thereto.
17. The apparatus of claim 16, wherein the ear piece can be powered
via wireless means from the power source in the frame for remote
communications.
18. The apparatus of claim 16, wherein the ear piece is connected
to the communication device via a pivotable arm removably connected
thereto.
19. The apparatus of claim 14, wherein the communication device
includes a microphone.
20. The apparatus of claim 14, wherein the frame has at least one
of a longitudinally extending rail or a slot, and the communication
device has at least one of a complementary longitudinally extending
rail to be received in the slot or a complementary slot adapted to
receive the longitudinally extending rail.
Description
CROSS-REFERENCE TO RELATED CASES
[0001] This application claims the benefit under 35 U.S.C.
.sctn.120 of U.S. patent application Ser. No. 12/429,846 to Barber,
et al., filed Apr. 24, 2009, pending, the entire contents of which
is hereby incorporated by reference herein.
BACKGROUND
[0002] 1. Field
[0003] The example embodiments in general relate to an apparatus
that includes a frame for receiving various removable tools and
devices.
[0004] 2. Related Art
[0005] Tools with gate mechanisms, such as carabiner clips, are
known. The carabiner style clip system is widely known for its ease
of use, functionality, and reliability. In its original and most
common form, it is used as a safety device for climbing. The use of
carabiner style clips has been extended and integrated into many
consumer products for carrying tools, such as writing instruments,
watches, dog leashes, and drink containers. These products have
carabiner clips permanently fixed to the tool to permit the user to
clip the tool to a belt loop or other surface when the tool is not
being used.
SUMMARY
[0006] An example embodiment is directed to an apparatus including
a frame, a first electronic device, and a second electronic device.
The frame can have an opening, a gate mechanism partially bounding
the opening, a first tool receiving section, and a second tool
receiving section. The first electronic device can have a display
screen and can be configured to be received in the first tool
receiving section. The second can be configured to be received in
the second tool receiving section. The second electronic device can
be configured to be electrically coupled to the first electronic
device through the frame when the first and second electronic
devices are received in the first and second tool receiving
sections, respectively. The gate mechanism can comprise a gate that
is pivotably coupled to the frame, with the gate being pivotable
relative to the frame to permit access to the opening.
[0007] Another example embodiment is directed to an apparatus
including a frame, the frame having a power source, a first opening
on at a first end adjacent a first tool receiving section and a
second opening at a second end of the frame opposite the first and
below the first opening, the second opening adjacent a second tool
receiving section. The apparatus includes a first electronic device
configured to be received in the first tool receiving section, the
first electronic device having one of an output device and an input
device thereon; and a second electronic device configured to be
received in the second tool receiving section, the second
electronic device having one of an output device and an input
device thereon. The frame is configured to provide electrical power
to one or both the first and second electronic devices via the
power source.
[0008] Another example embodiment is directed to an apparatus
including a frame and a communication device. The frame has an
opening, a gate mechanism partially bounding the opening, at least
one tool receiving section, and power source. The communication
device can be configured to be received in the tool receiving
section. The frame can be configured to provide electrical power to
the electronic device via the power source. The gate mechanism can
comprise a gate that is pivotably coupled to the frame and that is
pivotable relative to the frame to permit access to the
opening.
BRIEF DESCRIPTION OF THE DRAWINGS
[0009] FIG. 1 is a perspective view of an embodiment of an
apparatus having a folding knife and a light source attached to a
frame.
[0010] FIG. 2 is a side view of the apparatus of FIG. 1.
[0011] FIG. 2A is an exploded view of the apparatus of FIG. 1.
[0012] FIG. 2B is a side view of the apparatus of FIG. 1, shown
with a section broken-away to depict a locking mechanism of the
folding knife in an unlocked position.
[0013] FIG. 2C is a side view of the apparatus of FIG. 1, shown
with a section broken-away to depict the locking mechanism in a
locked position.
[0014] FIG. 3 is a cross-sectional view taken along line 3-3 of
FIG. 1.
[0015] FIG. 4 is a cross-sectional view taken along line 4-4 of
FIG. 1.
[0016] FIG. 5 is a cross-sectional view taken along line 5-5 of
FIG. 1.
[0017] FIG. 6 is a cross-sectional view taken along line 6-6 of
FIG. 1.
[0018] FIG. 7 is a simplified, exploded view of the apparatus of
FIG. 1.
[0019] FIG. 8 is a perspective view of a frame that can be used in
the embodiment of FIG. 1.
[0020] FIG. 9A is a side view of the frame of FIG. 8, shown with a
locking member in a locked position.
[0021] FIG. 9B is a side view of the frame of FIG. 8, shown with a
locking member in an unlocked position.
[0022] FIG. 10 is a cross-sectional view of the apparatus of FIG.
1, showing an embodiment of a locking mechanism.
[0023] FIG. 11 is a perspective view of an apparatus having a
folding knife and a screwdriver tool attached to a frame, according
to another embodiment.
[0024] FIG. 12 is a perspective view of an apparatus shown with a
folding knife and a screwdriver tool attached to a frame, according
to another embodiment.
[0025] FIG. 13 is a side view of the apparatus shown in FIG.
12.
[0026] FIG. 14 is a side view of an embodiment of an apparatus
having a folding knife and light source.
[0027] FIG. 15 is a perspective view of the screwdriver tool of
FIG. 12.
[0028] FIG. 16 is a side view of the tool of FIG. 15.
[0029] FIG. 17 is an exploded view of an embodiment showing an
apparatus with a folding knife and a lighter holder.
[0030] FIG. 18 is a perspective view of an embodiment showing an
apparatus with a folding knife and a light source.
[0031] FIG. 19 is a perspective view of the apparatus shown in FIG.
17.
[0032] FIG. 20 is a perspective view of the apparatus shown in FIG.
17, shown with a lighter holder cap in an open position.
[0033] FIG. 21 is a perspective view of a cantilever spring locking
mechanism.
[0034] FIG. 22 is a side view of the apparatus shown in FIG. 18,
shown with portions of the apparatus removed.
[0035] FIG. 23 is another side view of the apparatus shown in FIG.
18, shown with portions of the apparatus removed.
[0036] FIG. 24 is a perspective view of an embodiment showing an
apparatus with a folding knife and a screwdriver tool.
[0037] FIG. 25A is a perspective view of an embodiment showing an
apparatus with a folding knife.
[0038] FIG. 25B is a side view of the apparatus shown in FIG.
25A.
[0039] FIG. 26 is a cross-sectional view, taken along line 26-26 of
FIG. 25B.
[0040] FIG. 27 is a cross-sectional view, taken along line 27-27 of
FIG. 25B.
[0041] FIG. 28 is a bottom view of the apparatus shown in FIG.
25A.
[0042] FIG. 29 is a top view of the apparatus shown in FIG.
25A.
[0043] FIG. 30 is a left side view of the apparatus shown in FIG.
25A.
[0044] FIG. 31 is a right side view of the apparatus shown in FIG.
25A.
[0045] FIG. 32 is a perspective view of the frame of the apparatus
shown in FIG. 25A.
[0046] FIG. 33 is a perspective view of an apparatus having a
removable compass tool.
[0047] FIG. 34 is a perspective view of an embodiment showing an
apparatus with a removable clock tool.
[0048] FIG. 35 is a perspective view of an embodiment showing an
apparatus with a removable light source.
[0049] FIG. 36 is a perspective view of an embodiment showing an
apparatus with a removable USB flash drive tool.
[0050] FIG. 37 is a perspective view of an embodiment showing a
removable tool with an opening for receiving an additional
tool.
[0051] FIG. 38 is a perspective view of an embodiment showing an
apparatus with a removable flashlight tool.
[0052] FIG. 39 is a perspective view of the apparatus of FIG. 38,
showing the flashlight tool in an extended position.
[0053] FIG. 40 is a perspective view of an embodiment showing an
apparatus with a removable container.
[0054] FIG. 41 is a perspective view of an embodiment showing an
apparatus with a removable folding knife.
[0055] FIG. 42 is a perspective view of an embodiment showing an
apparatus with a removable screwdriver tool.
[0056] FIG. 43 is another perspective view of the apparatus of FIG.
42.
[0057] FIG. 44 is another perspective view of the apparatus of FIG.
42, showing the screwdriver tool in an extended position.
[0058] FIG. 45 is another perspective view of the apparatus of FIG.
42, with portions of the screwdriver tool removed to show certain
aspects of its internal structure.
[0059] FIG. 46A is a side view of an embodiment showing an
apparatus with removable electronic equipment.
[0060] FIG. 46B is a side view of an embodiment showing an
apparatus with removable electronic equipment.
[0061] FIG. 47 is a perspective view of an embodiment showing a
frame with connectors for connecting up to three tools.
[0062] FIG. 48 is a side view of the frame of FIG. 47.
[0063] FIG. 49 is a top view of the frame of FIG. 47.
[0064] FIG. 50 is a perspective view of an embodiment showing a
frame with a removable communication tool.
[0065] FIG. 51 is a perspective view of an embodiment showing a
first and second frame system connected together.
[0066] FIG. 52 is a bottom view of an embodiment showing a first
and second frame system connected together.
DETAILED DESCRIPTION
[0067] The present disclosure concerns embodiments of a
multi-purpose tool comprising one or more tools that are configured
to removably mount to a frame. The frame desirably has at least one
opening and a gate to permit access to the opening.
[0068] FIGS. 1 and 2 show an apparatus 10, according to one
embodiment, having a frame 12 with two gate mechanisms 14. Frame 12
has two tools attached to it, namely, a folding knife tool 16 and a
light tool 18 in the illustrated embodiment. Folding knife tool 16
has a folding knife blade 20 that is connected to a handle portion
19 by a pivot mechanism 22. The pivot mechanism desirably comprises
a pivot pin and pivot screw, as known in the art. The blade 20 can
include a thumb stud 24 on both sides of the blade 20 to facilitate
opening the blade 20 from a closed position. The blade 20 can be
pivoted between a closed position (as shown in FIG. 1) and an open
position extending from the handle portion 19, like a conventional
folding knife. Various other tools can be mounted to frame 12, as
further described below.
[0069] Light tool 18 can have two LED elements 26 which are
connected to a battery source (not shown) contained within the body
of light tool. The LED elements 26 are activated by rotating a
light activator switch 28, which causes power to be supplied by the
batteries to the LED elements 26. The batteries can be electrically
connected to and can supply power to the LED elements in any
conventional manner. The tool 18 can have a transparent cover 27
covering LED elements 26. In alternative embodiments, conventional
incandescent bulbs can be used instead of LED elements 26. The
number of LED elements 26 can vary and, if desired, the LED
elements 26 can be operated (turned on) as a group and/or
individually.
[0070] Each of the tools 16, 18 can have a latch mechanism, such a
sliding latch mechanism 30 and/or a rocker latch mechanism 32, to
retain the tool on the frame. Referring now to FIGS. 2A, 2B, and
2C, sliding latch mechanism 30 is manually moved up and down to
lock or release a tool from the frame 12. Rocker latch mechanism
32, on the other hand, automatically locks a tool onto frame 12. To
release rocker latch mechanism 32 so that the tool can be removed
from the frame 12, pressure is exerted against the sides of the
rocker latch mechanism 32.
[0071] As shown in FIG. 2A, knife tool 16 and light tool 18 each
have a rail receiving area, or elongated slot, 33 (shown in FIG. 7)
that receives a corresponding rail 34 when a tool is attached to
frame 12. On both sides of the frame 12, there can be discontinuous
gaps 36 in rails 34. FIGS. 7 and 8 show frame 12 and gaps 36 in the
rails 34. When sliding a tool onto frame 12, the tool is directed
so that rail receiving area 33 aligns with rail 34. The tool is
then slid across the frame, with rail 34 entering into the rail
receiving area 33.
[0072] Moreover, it will be understood that the connection of the
tool to the frame can be reversed from that shown. That is, the
frame can comprise a slot and the tool can comprise a complementary
rail.
[0073] The biasing of the rocker latch mechanism 32 operates to
automatically secure the tool in place when the rocker latch
mechanism 32 reaches gaps 36. As shown in FIG. 7, rocker latch
mechanism 32 has inwardly latching portions 40 on each side. When a
tool slides along rail 34, the latching portions 40 eventually
reach and align with gaps 36. At that point, the inward biasing of
rocker latch mechanism 32 causes latching portions 40 to enter gaps
36 and lock the tool in place on the frame. FIGS. 2B and 2C show a
cutaway of the area around the rocker latch mechanism 32 to
illustrate the alignment and locking action of rocker latch
mechanism 32 with gaps 36.
[0074] FIGS. 3-6 are cross-sectional views that show rocker latch
mechanism 32 in more detail. As discussed above, latching portion
40 locks in place in gaps 36 formed in rails 34 of frame 12. To
release latching portion 40 from the frame, pressure is exerted
against side 42 of rocker latch mechanism 32. Springs 44 located
behind the side of rocker latching mechanism 32 resist the opening
pressure and ensure that latching portion 40 engages frame 12 with
sufficient force. If sufficient pressure is applied to side 42 of
the rocker latch mechanism, latching portion 40 moves, or pivots in
a rocking action, outward, releasing the grip on frame 12 and
permitting the tool to be removed from frame 12. As shown in FIG.
3, a latch mechanism 32 desirably is provided on each side of a
tool so that both latch mechanisms 32 are pressed inwardly at the
same time to permit removal of the tool.
[0075] As shown in FIG. 5, each of the two rails 34 is
substantially T-shaped, with the bottom rail 34 forming an inverted
T-shape. Although the rails can be T-shaped, they could also be
formed in other shapes so long as that shape corresponds with a
slot or opening in the rail receiving area of the corresponding
tool. For example, a rail could be formed of a simpler shape, such
as an L-shape, or the shape of a rail can be more complex, such as
a spine with rounded or otherwise varying edges. If there are two
or more rails on a frame, the rails could be different from one
another, so that each rail is not capable of receiving the same
tools. Desirably, however, multiple rails on one frame are
similarly shaped, so that a tool of the apparatus is fully
interchangeable and can fit on any rail on the frame.
[0076] Sliding latch mechanism 30 can be used to further secure the
tools to the frame. FIG. 2B shows sliding latch mechanism 30 in the
unlocked position and FIG. 2C shows sliding latch mechanism 30 in
the locked position. As shown in those figures, sliding latch
mechanism 30 has a portion that, when locked, extends underneath a
lip 38 in the frame 12 so that the tool cannot move laterally along
the rail 34.
[0077] FIGS. 9A, 9B, and 10 show additional details relating to the
sliding latch mechanism. FIGS. 9A and 9B show just frame 12 and
sliding latch mechanism 30. In those figures, for clarity, sliding
latch mechanism 30 is shown without any other part of the tool to
which it is actually connected. FIG. 9A depicts sliding latch
mechanism 30 in the locked position, and FIG. 9B depicts sliding
latch mechanism 30 in the unlocked position. FIG. 10 is a
cross-sectional view of the apparatus shown in FIG. 1. In this
cross-sectional view, the sliding latch mechanism 30 is shown in
the unlocked position.
[0078] Referring to FIG. 7, gate mechanism 14 is discussed in more
detail. Each gate mechanism 14 can comprise a gate 46 and a gate
pin 48. Gate pin 48 attaches the gate 46 to the frame 12. Gate 46
is desirably outwardly biased by a torsion spring 50 or other
biasing mechanism. When no external force is acting on gate 46,
distal end 52 of the gate 46 contacts a gate stopping portion 54 of
frame 12 that extends toward the gate 46. This contact between gate
stopping portion 54 and gate 46 prevents gate 46 from extending
outwardly beyond gate stopping portion 30. Desirably, distal end 52
of gate 46 has a notched section 56 that corresponds to the gate
stopping portion 54 so that the two elements mate together. In use,
when pressure is applied inwardly on the gate 46, it swings open
about gate pin 48 to the opening bounded by the gate and portions
of the frame. This springing gate mechanism permits frame 12 to be
attached to a clip, loop, or other suitable structure.
[0079] The gate mechanism discussed above is generally similar to a
standard gate used in a carabiner tool. The structure and shape of
the gate mechanism could vary from that disclosed above, and could
be any conventional type of gate mechanism. The gate mechanism can
also comprise a gate that is movably coupled to the frame but which
does not pivot. For example, the gate could be a plunger-style
gate.
[0080] The opening formed by the gate mechanism disclosed in FIGS.
1 and 2 is generally D-shaped. Alternatively, the opening can be
round, oval, pear-shaped, or any other shape. Moreover, the gate
itself need not be curved as shown in FIGS. 1 and 2. The gate could
instead be straight. In addition, the free end of the gate can
simply be blocked by the gate stopping portion or the free end of
the gate can be configured to fit inside or otherwise mate with the
gate stopping section.
[0081] The gate mechanism also need not include a torsion spring.
It could instead be outwardly biased in some other conventional
manner. Alternatively, the gate mechanism need not be biased at
all. Instead, it could simply include a locking mechanism to lock
the gate in place. For example, a sleeve on the gate could include
a screw lock which could be used to lock the gate against the frame
by manually twisting the sleeve across a section of the frame. Of
course, a locking mechanism of this sort could also be used along
with the biasing mechanism.
[0082] FIG. 11 shows another embodiment of an apparatus having one
or more tools. In this embodiment, screwdriver tool, or
screwdriver, 58 is shown attached to frame 12 along with knife tool
16. Screwdriver tool 58 includes two double-ended bits 60 (although
various other types of bits can be provided) and a bit-receiving
opening 62 at one end of the tool body. As shown in FIG. 11,
double-ended bits 60 can be held in a recessed storage area on the
side of tool 58. Tool 58 can be attached to and removed from frame
12 in the same manner as the other tools discussed above. For
example, tool 58 can include a sliding latch mechanism 30 and a
rocker latch mechanism 32 as discussed above. Frame 12 can include
two gate mechanisms 35 of the type discussed above.
[0083] FIG. 12 shows yet another embodiment. In this embodiment,
knife tool 64 and screwdriver tool 66 each have a key ring opening
68 with a key ring 70 attached thereto. A belt clip 72 can be
attached to frame 74. As shown in FIG. 13, frame 74 includes
openings 76 to which belt clip 72 can be attached. Belt clip 72
desirably attaches to frame 74 by a snap fit connection. However,
belt clip 72 could be attached by any conventional mechanical
method, such as screws. Frame 74 can include two gate mechanisms 71
of the type discussed above.
[0084] FIG. 13 shows a side view of the apparatus shown in FIG. 12.
In particular, FIG. 13 shows screwdriver tool 66 with a five
internal bit storage areas 78 for holding screwdriver bits. Bit
storage areas 78 are accessible through window 79, so that bits 60
can be slid out of bit storage areas 78 through an opening on the
side of tool 66 that is opposite the frame attachment side.
Therefore, the bits can be accessed without removal of the tool
from the frame. Bits can be removed from storage areas 78 and
inserted into a bit receiving area 80. FIG. 14 shows knife tool 64
with a blade 82 in an open, extended position. Knife tool 64 may
include a locking mechanism (not shown) to hold blade 82 securely
in the open position. FIGS. 15 and 16 show screwdriver tool 66
removed from frame 74. FIG. 15 shows rail receiving area 73, which
receives the rails of frame 74 when attaching screwdriver tool 66
to frame 74.
[0085] FIGS. 17-19 show yet another embodiment. FIG. 17 shows an
exploded view of a frame 84, knife tool 86, and a container tool
88. Frame 84 has two gate mechanisms 85. Knife tool 86 comprises a
blade 90 that is pivotably attached to a handle 87. Container tool
88 has a lid 92 that pivots about lid pin 94. When lid 92 is
closed, it desirably makes a water tight seal with the body of
container tool 88.
[0086] The container tool 88 is desirably sized to accommodate a
traditional lighter, such as a BIC.TM. lighter. In FIG. 19, lid 92
is shown in an open position, revealing a lighter 93 inside the
container tool 88. Of course, the container could be made larger or
smaller to hold various other items, such as prescription medicine
pill bottles or other useful items. The knife tool 86 and the
container tool 88 can also have openings 95 for attachment of a key
ring.
[0087] Knife tool 86 and container tool 88 attach to frame 84 in a
different manner than the tools previously described. Tools 86 and
88 have openings or slots along a bottom section of those tools and
these openings mate with rails 96 of the frame 84. The height of
rails 96 varies along the length of the frame. In particular, there
is a sharp drop in height at one end creating a wall 98 along the
top of rails 96. Each of the tools 86, 88 have a cantilever latch
spring 100 that is biased downward. When attaching a tool 86, 88 to
frame 84, the tool slides along the frame until the end of the
cantilever latch spring 100 moves beyond the high point of the
rails 96 and drops down against wall 98. At that point the biased
cantilever latch spring 100 prevents the tool from being removed
from the frame longitudinally. In addition, each tool has an
indentation 102 at its forward end that receives a projection 104
of the frame 84. When the tool slides onto frame 84, the
indentation 102 and the projection 104 mate so that the tool is
further secured to the frame 84.
[0088] FIG. 20 shows yet another embodiment. A knife tool 106 and a
light tool 108 are attached to a frame 110. Frame 110 has two gate
mechanisms 111. Blade 112 is pivotably attached to knife tool 106
by a pivoting mechanism (not shown). Blade 112 can include a thumb
stud 114 to facilitate opening and closing of the blade. In
addition, knife tool 106 may have a belt clip 116 attached thereto.
In FIG. 20, belt clip 116 is shown screwed to the knife tool 106 by
screws 118. Alternatively, belt clip 116 could be attached to
either the knife tool 106 or the frame 110 by other known methods
of attachment.
[0089] Light tool 108 includes two LED elements 120 and a battery
source (not shown) that provides current to the LED elements. The
battery source is desirably accessible under a battery cover 122,
which is shown attached to the light tool by screws 124. The LED
elements 120 can be activated by any known method, such as by
pressing a push button switch 126.
[0090] Knife tool 106 and light tool 108 can be attached to the
frame 110 in the same manner as discussed above with the tools and
frame shown in FIG. 17. Cantilever latch spring 100 is shown in
more detail in FIG. 21. Cantilever latch spring 100 has a fixed end
128 and a free end 130. Fixed end 128 is secured to the removable
tool by any mechanical means. Free end 130 is biased downward in
the direction A. Accordingly, the free end 130 of the cantilever
latch spring 100 presses downward and locks the tool in place when
the tool slides onto a frame in the manner discussed above.
Cantilever latch spring 100 can also have two gripping members 132
so the free end 130 can be manually lifted upward to release the
cantilever latch spring and remove the tool from the frame.
[0091] FIGS. 22 and 23 show additional views of the apparatus of
FIG. 20, with various sections of the apparatus removed for
clarity. FIG. 22 shows knife tool 106 with one side removed,
thereby exposing blade 112. Blade 112 has a thumb stud 114 and is
pivotably attached to knife tool 106 through pivot mechanism 134,
which is desirably a pivot pin and pivot screw assembly. Cantilever
latch spring 100 is shown biased downward in the locked position
with the free end of the cantilever latch spring 100 adjacent the
wall 98 of rail 96, which prevents removal of the tool 106 in the
longitudinal direction (in the direction of arrow B in FIG. 22).
The tool can be removed from the frame by lifting the free end 130
upwardly away from the rail until the free end clears wall 98, at
which point the tool can be slid off the rail in the direction of
arrow B.
[0092] FIG. 23 shows light tool 122 with one side removed, thereby
exposing two batteries 136 contained within light tool 122. LED
elements 122 are electrically connected to batteries 136, which
provide the energy necessary to power LED elements 122. Again,
cantilever latch spring 100 is shown biased downward in the locked
position with the free end of the cantilever latch spring 100
adjacent the wall 98 of rail 96.
[0093] FIG. 24 shows yet another embodiment. FIG. 24 shows frame
110 with knife tool 106 and screwdriver tool 138 attached thereto.
Frame 110 has two gate mechanisms 111. Knife tool 106 is shown with
blade 112 pivoted into an open position for use. The knife tool can
have a conventional liner lock that engages the tang of the blade
when it is pivoted to the open position to protect against
inadvertent closing of the blade. Screwdriver tool 138 is shown
with a side area removed to expose four bit holding areas 140. Bit
holding areas 140 are accessible to a user from a side of
screwdriver tool 138 and extend into the body of screwdriver tool
138. Screwdriver tool 138 is shown with a bit 142 and bit driver
146, which is inserted into bit receiving area 144. In addition,
one or more of the bit holding areas 140 (such as the right-most
bit holding area 140 shown in FIG. 24) can be configured to
function as a bit receiving area. In this manner, a bit 142 can be
positioned in a central location along the longitudinal length of
the tool, which provides greater leverage (mechanical advantage) to
the tool when using one of the bits. Both tools are attached to
frame 110 and secured thereto by cantilever latch springs 100.
[0094] FIGS. 25A and 25B show another embodiment. Frame 144, unlike
the previous frames disclosed, has a single tool attached thereto
via a rail system. Knife tool 146 has a blade 148 pivotably
attached to a handle 149. Knife tool 146 can be secured to frame
144 by a sliding latch mechanism 150 and automatic locking
mechanism 152. Sliding latch mechanism 150 can be similar to that
discussed above with respect to FIG. 1. Alternatively, sliding
latch mechanism 150 can be any conventional mechanical latching
mechanism that is capable of locking and unlocking the knife tool
146 from the frame 144 by moving a sliding latch mechanism.
Automatic locking mechanism 152 secures knife tool 146 to frame 144
when knife tool 146 is moved into a holding position along frame
144. This embodiment shows automatic locking mechanism 152 as part
of frame 144. However, the apparatus could be modified so that the
automatic locking mechanism is part of tool 146.
[0095] FIGS. 26 and 27 show cross-sectional views of the apparatus
of FIG. 25B (which shows the apparatus of FIG. 25A with blade 148
removed for convenience). As shown in FIG. 27, automatic locking
mechanism 152 has downwardly extending sections 154 that extend
into an opening 153 in the frame. Automatic locking mechanism is
biased upward and, when locked, extends into a notch 155 in tool
146. When automatic locking mechanism 152 is in the locked position
(as shown in FIG. 27), knife tool 146 cannot move longitudinally
along frame 144. When a force is applied downwardly to automatic
locking mechanism 152, the automatic locking mechanism 152 moves
away from notch 155 permitting knife tool 146 to be moved
longitudinally off of frame 144. Automatic locking mechanism 152 is
desirably biased upward by the force exerted against the two sides
of the downwardly extending sections 154 by the sides the frame
that contact those sections. Alternatively, some other type of
spring mechanism or mechanical means could be used to bias the
automatic locking mechanism 152 upward.
[0096] As shown in FIG. 25A, frame 144 has a gate mechanism 156.
Gate mechanism 156 can be pivotably attached to the frame in the
manner discussed above. In addition, gate mechanism 156 can be
hollow and can contain another tool mounted therein. FIG. 25A shows
a pen tool 158 contained with gate mechanism 156. Pen tool 158 is
desirably pivotably coupled to gate mechanism 156 so that it can be
accessed by a user without having to remove pen tool 158 from frame
144. Alternatively pen tool 158 could be entirely removable and
secured in gate mechanism 158 by any mechanical means, such as, for
example, by snap fitting into place or by using a magnet.
[0097] The apparatus of FIGS. 25A and 25B is also shown with a
larger aperture 160 and a small aperture 162. Theses apertures are
shown empty. However, as discussed in more detail below, these
apertures can be shaped to receive additional tools.
[0098] FIGS. 28-30 show side, top, and bottom views of the
apparatus of FIG. 25B. FIG. 28 shows a bottom view of the apparatus
and, in particular, shows pen tool 158 contained in gate mechanism
156.
[0099] FIG. 32 shows frame 144 without automatic locking mechanism
152 and without gate mechanism 156. Frame 144 has a rail 164 that
is discontinuous at section 166. Opening 153 is located at
discontinuous rail section 166. Opening 153 receives downwardly
extending section 154 of automatic locking member 152, which is
biased upward. Knife tool 146 has a rail receiving section 157 that
has a wall 167 and a gap 169 (shown in FIG. 37) that aligns with
the automatic locking member 152 when the knife tool 146 is secured
to the frame 144. Frame 144 can also include an extension member
170, which aligns with and mates with a corresponding opening 171
in knife tool 146 (shown in FIG. 37) during attachment of knife
tool 146 to frame 144.
[0100] FIG. 33 shows another embodiment. Frame 144 is shown with a
compass tool 172 attached thereto. Frame 144 has a gate mechanism
156. Compass tool 172 can be attached to frame 144 in the same
manner as discussed above with respect to knife tool 146. Compass
173 is desirably secured to compass tool 172 by snap fitting
compass 174 into an appropriately sized opening. Alternatively,
compass 173 could be secured to compass tool 172 by any other
suitable means. For example, the compass tool 172 could have a
threaded opening and the compass could be made with threads that
mate with the threaded opening. Alternatively, compass 173 could be
held in the aperture by a magnetic force. Accordingly, various
tools could be formed by exchanging compass 173 with another
similarly sized tool. Compass tool 172 is not shown with a sliding
latch mechanism, however, such a feature could be included on
compass tool 172 and the other tools discussed below, if
desired.
[0101] FIG. 34 shows another embodiment. Frame 144 is shown with a
clock tool 174 attached thereto. Frame 144 has a gate mechanism
156. Clock tool 174 can be attached to frame 144 in the same manner
as discussed above with respect to knife tool 146. Clock tool 174
desirably has a clock 175 that is removable in the manner discussed
above with respect to compass 173.
[0102] FIG. 35 shows another embodiment. Frame 144 is shown with a
light tool 176 attached thereto. Frame 144 has a gate mechanism
156. Light tool 176 can be attached to frame 144 in the same manner
as discussed above with respect to knife tool 146. Gate mechanism
156 desirably has a pen tool 158 contained within it. Light tool
176 desirably has an LED element 178 (or an incandescent bulb) that
is electrically connected to a battery source (not shown). Just as
with compass 173 and clock 175, LED element 178 is desirably
removable from light tool 176.
[0103] In addition, large aperture 160 can be sized to receive a
compass, clock, LED element, or any of various other tools. FIG. 35
shows large aperture 160 with a clock 178 held therein. Clock 178
can be held in large aperture 160 by any of the means discussed
above. Small aperture 162 can similarly be used to hold tools, such
as an appropriately sized clock or key ring loop.
[0104] FIG. 36 shows yet another embodiment. Flash drive tool 179
is shown connected to frame 144 in the same manner as discussed
above with regard to other tools and frame 144. Flash drive tool
179 has a standard USB flash drive unit 181 contained therein.
Flash drive unit 181 is removable from flash drive tool 179 so that
it can be connected to a computer or other type of device to access
information stored on flash drive unit 181. The forward end of the
tool 179 can be formed with an opening to allow the flash drive
unit to be removed for use when the tool is removed from the frame.
If desired, the flash drive unit 181 can have a spring to launch
(provide access) to the USB connector of the flash drive.
[0105] Frame 144 has an LED element 180 contained in large aperture
160. In addition, a small opening 182 is formed in the frame 144 so
that light from LED element 180 can be directed through small
opening 182.
[0106] FIG. 37 shows a tool holder 184 that can be attached to
frame 144. Tool holder 184 has an aperture 186 for receiving any of
various tools as discussed above with respect to aperture 180. Rail
receiving section 157 has a wall 167 and a gap 169 that align with
automatic locking member 152 when tool holder 184 is secured to
frame 144. Opening 171 aligns with extension member 170 to help to
secure tool holder 184 to frame 144.
[0107] FIGS. 38 and 39 show yet another embodiment. A removable
flashlight tool 186 is mounted to frame 188. Frame 188 has a gate
mechanism 189. Flashlight tool 186 can be secured to frame 188 in
the manner discussed. Flashlight tool 186 includes a flashlight 190
that can be any conventional type flashlight, such as a battery
powered flashlight with a bulb or an LED light source.
[0108] Flashlight 190 is desirably pivotably mounted to the
flashlight tool 186 by a pivot mechanism 192, such as a pivot pin
and pivot screw combination, so that it can be pivoted between open
and closed positions. FIG. 38 shows flashlight 190 in a closed, or
folded, position and FIG. 39 shows flashlight 190 in a partially
open position. Flashlight 190 desirably is functional in the open
position and closed positions, as well as all positions between
those positions.
[0109] FIG. 40 shows another embodiment. A container tool 192 is
shown attached to frame 194. Frame 194 has a single gate mechanism
195. Container tool 192, like the container tool discussed above,
can include a lid 196 that opens to permit access to a hollow body
of container tool 192. The hollow body of the container tool 192
can be sized to receive a standard sized lighter or it can be sized
to receive and store other useful items, such as pill bottles.
[0110] Although frame 194 is a shaped differently than the frames
previously discussed, the method of attaching container tool 192 to
frame 194 can be substantially the same. Container tool 192 can be
secured by sliding a rail receiving section along rails. Latches or
automatic locking mechanisms, as discussed above and not shown
here, can be used to further secure the container tool 192 to frame
194.
[0111] FIG. 41 shows yet another embodiment. A knife tool 196 is
shown secured to a frame 198. Frame 198 has a single gate mechanism
199. Again, the knife tool 196 can be secured to the frame 198 in
substantially the same manner as discussed above with regard to
other embodiments disclosed herein. For example, a rocker latch
mechanism 201 can be used to secure knife tool 196 to frame 198.
Knife tool 196 has a blade 200 (shown extended in FIG. 41) that is
pivotably mounted to handle 197 of knife tool 196. A key ring 202
is shown attached at an aperture 204 in knife tool 196.
[0112] FIGS. 42-45 show yet another embodiment. A revolver bit tool
206 with a revolver bit driver 208 is shown attached to a frame
210. Frame 210 has a single gate mechanism 211. Like the flashlight
tool shown in FIGS. 38-39, a revolver bit driver 208 is desirably
pivotably attached to revolver bit tool 206 by a pivot mechanism
212. Frame 210 can include an aperture 214 for receiving another
tool, such as a clock or key ring. FIG. 45 shows revolver bit
driver 208 with a part of its side removed, exposing bits 216 held
in the interior of revolver bit driver 208. Revolver bit driver 208
functions like known revolver bit screwdrivers. By rotating and
laterally moving the body of revolver bit driver 208, bits 216 can
be selected and moved into position for use.
[0113] FIGS. 46A and 46B show another embodiment. Frame 218 has two
electronic devices 220, 222 attached thereto. Device 220 has
speakers 224 at both ends and an external screen section 225 that
is capable of displaying information. Device 222 can have an
external display screen 226. Devices 220, 222 can comprise various
other electronic devices. Devices 220, 222 can be electrically
connected to each other by providing a common electrical contact
point along frame 218 (not shown). That is devices 220, 222 can
form an electronic circuit in both terms of sharing electrical
power and offering communication and control, input and output from
these devices interchangeably depending on the tool functions. In
addition, if desired, both devices 220, 222 can store electrical
power (e.g., through batteries) and can share power between
devices.
[0114] Alternatively, devices 220, 222 can be electrically isolated
and operationally distinct. Each of devices 220, 222 can also have
a section that flips down to reveal an additional input or output
device, such as a display screen, a keyboard, or a microphone.
[0115] As shown in FIG. 46B, external screen section 225 can flip
up to reveal internal screen areas 233, 235. Alternatively external
screen section 225 can flip up (or slide up) to reveal additional
input areas. Similarly, external display screen 226 can flip down
to reveal an additional input area 229 and an additional screen
display screen 231. The size and area of the flip up members
described above can vary and each flip up member can be configured
to include or contain one or more of a display screen, keyboard,
microphone, ear piece (removable or permanent) or speakers. In
addition, instead of flipping up or down, the internal screens
and/or input members can be accessed by sliding an external cover
(or screen) to reveal the internal components.
[0116] Devices 220, 222 can be configured so that they can be
combined together once they are removed from the tool. For example,
devices 220, 222 could be two parts of an electronic game system
that function together. Thus, for example, one device can be a
display screen and the other device can be an input tool, and once
the two devices are connected they form a single integrated game
system. In this manner, the game can be functional both on the
frame (if the two components are electrically connected to one
another as discussed above) and off the frame (once they are
combined into a single game system).
[0117] Devices 220, 222 can be secured to frame 218 in the same
manners discussed above, unless modification is necessary to put
the two devices in electrical contact with each other. Either or
both devices 220, 222 can receive electric power from one or more
batteries housed therein. Alternatively, a mechanical generator
mechanism can be incorporated in the frame or in one or both
devices 220, 222. For example a rotatable hand crank 227 can be
rotated to generate current that can be supplied to devices 220,
222. The hand crank 227 can be stored in the frame (or in the
removable tool/device) and accessed by pulling the handle outward
from the frame (or tool/device). Alternatively, the gate itself can
be configured to provide self-generated power. That is, by
repeatedly moving the gate inward towards the frame, power can be
generated.
[0118] A batter, such as a lithium-ion battery (not shown), can be
stored in the frame, or in one or both of the devices 220, 222. The
lithium-ion battery can store power from the hand crank 227.
Alternatively, power can be supplied or supplemented to the
lithium-ion battery via a solar power collector (not shown). The
power from the self-powering component (e.g., the hand crank or a
solar collector) can either directly power the attached components
or indirectly power the attached components through the lithium-ion
battery.
[0119] For each embodiment discussed herein that utilizes a power
source (e.g., a battery), the frame or tool containing the battery
source can also include a line-out to power other secondary
devices. The line-out connection can be any standard connection for
powering devices, e.g., USB powered devices, cell-phones, personal
digital assistants (PDAs). In addition, the line-out can be
configured to fit a supplied cable with an adapter capable of
supplying power to various electronic equipment. Again, the power
can be supplied to the secondary devices directly from the
self-powering component or indirectly through a battery source that
is storing the self-generated power.
[0120] FIGS. 47-49 show another embodiment of a frame. Frame 228
includes a gate mechanism 230 and attachment portions 232.
Attachment portions 232 are configured to receive a mating member
of a tool (not shown) and to secure that tool, for example, by a
snap fit connection. To release a tool from frame 228, a release
mechanism 234 is pressed, moving attachment portions 232 downward
and releasing the attached tool from frame 228. Multiple release
mechanisms can be included or there could be only one release
mechanism that simultaneously release all attached tools from frame
228.
[0121] FIG. 50 shows another embodiment of an apparatus with a
removable tool. Frame 240 includes a gate mechanisms 242 pivotably
attached to frame 240 by pivot mechanism 244. A communication tool
(or device) 246 is slidably attached to frame 240. Communication
tool 246 may desirably include a conventional type cellular phone
that is capable of receiving voice and/or data information.
Communication tool 246 can include a screen 248, a microphone 250,
and an ear piece 252. Screen 248 can include a touch pad for
inputting information to the tool as well as a display for
displaying information received by the tool. Microphone 250 is
shown attached at a base of the tool 246 to receive sound. Ear
piece 252 can be pivotably attached to arm 254 through pivot
mechanism 256 so that it can swing open when desired. Arm 254 can
be biased as well, so that when arm 254 is released from by
pressing or operating a release mechanism (not shown) it will
automatically open. Communication tool 246 may be attached and
removed from frame 240 in the manner disclosed above with respect
to other embodiments. The ear piece 252 can also be removable from
arm 254 so that it can be used separately from the communication
tool 246, via a wireless medium such as, for example,
Bluetooth.TM..
[0122] If desired, a removable earpiece or hand held component/cell
phone can communicate via Bluetooth.TM. or other wireless standards
to the base frame in the configuration or to another electronic
device such as an external computer capable of
receiving/transmitting a signal. Power can also be gained from the
base unit (frame) to power the earpiece. Thus, when the earpiece is
removed from the frame, it is self-powered.
[0123] FIGS. 51 and 52 show another embodiment of an apparatus with
removable tools. As shown in FIG. 51, two separate frame systems
can be combined together to form a single tool. In this manner,
four or more tools can be carried at the same time. Tools 264 and
266 are connected to a first frame 260, and tools 268 and 270 are
connected to a second frame 262. The first frame 260 and second
frame 262 each have at least one gate mechanisms (272 and 274,
respectively). Tools 264, 266, 268, and 270 can be any of the tools
disclosed herein. In FIG. 51, for example, tool 266 is a bit driver
tool and tool 270 is a knife tool. The first frame 260 and second
frame 262 can be connected to one another by connecting members 276
and 278 (shown in FIG. 52). The connecting members 276, 278 can be
pin connector rods that span between the two frames in the vicinity
of the gate mechanisms. The pin connector rods can be secured to
the frames using known mechanical fasteners, such as screws or
snap-fit connectors. A belt clip 280 can be provided on one frame.
The manner of connecting a belt clip to a frame is discussed in
more detail above.
[0124] The location and system of connection for the two frame
members can vary. For example, the connection system can be located
elsewhere on the frame, and can include one or more points of
connection. Also, the system for connecting the two frame members
can include other fastening or connecting elements, such as
magnets, clips, snap-fits, or other mechanical connectors.
[0125] The tools and frames described above are desirably
configured so that the tool is fully functional when the tool is
attached to the frame. In addition, the tool the tool is desirably
fully functional when it is removed from the frame as it may be
desirable in some circumstances to be able to use the tool without
the encumbrance of the frame. Some tools may, however, have
heightened utility when attached to the frame. For example, if the
tool is configured to be electrically connected through the frame
to another tool, it may be preferable to use the tool only in its
attached state.
[0126] There are many variations of the above embodiments that are
contemplated. For example, a frame can have one or more gate
mechanisms. In addition, the location of the gate mechanism can
vary along with the shape of the frame and tools. In addition,
although the embodiments above show frames with one or two rail
systems for receiving tools, it is contemplated that three or more
rail systems could be provided.
[0127] In addition to the tools specifically disclosed above, many
other types of tools could be used. For example, an apparatus
according to one embodiment could include electronic equipment such
as personal media devices or other electronic storage devices
(e.g., MP3 players or other music players, videogame devices, video
or picture players, IPOD.TM. holders, and AM/FM receiver with
headphone plug), GPS locator devices, and communication devices
(e.g., cell phones, Bluetooth.TM. devices, walkie-talkies, and
Wi-Fi detectors). Similarly, an apparatus according to one
embodiment could include personal safety devices (e.g., pepper
spray and mace), multi-purpose tools systems, beverage openers
(e.g., bottle openers and/or corkscrews), grooming kits (e.g., nail
cutters, file, toothpick, tweezers, and scissors), sporting
equipment (e.g., golf tool kit for divot repair or ball marking),
pliers, hoof picks, clocks, and personal storage containers for
holding money, credit cards, or passports.
[0128] In addition, as discussed above, various tools (such as
clocks and compasses) can be attachable to an aperture in either
the frame or the tool. The aperture need not be round but can be
any desired shape, including oval, square, rectangular, or any
other non-traditional shape. Tools can also be attached to other
areas of the frame as well, including, for example, at the gate
mechanism. In addition to the writing instrument (pen tool)
disclosed above, other tools can be attached to or removably
contained within the gate mechanism, such as a bit driver,
toothpick holder, mini-tweezers, or other micro-tool.
[0129] Although a track or rail system is preferable for attaching
and securing a tool to an apparatus, tools may be secured by other,
conventional non-track locking methods. The frame has a tool
receiving section that receives a mating portion of the tool. The
tool receiving section can be a track or rail system as disclosed
above. Alternatively, it can be some other mating system, such as
an opening that receives an extending member contained on the tool
or an extension member that receives an opening in the tool. To
attach the tool to the frame's tool receiving area, the tool
desirably has a connecting member. The connecting member may be an
extending section, such as a track receiving area that extends to
surround a rail or track, as discussed above. Alternatively, the
connecting member may be an extending member that extends into an
opening in the frame or it may be an opening that receives an
extending member that extends from the frame.
[0130] The interchangeable apparatus disclosed herein provides a
user with tremendous flexibility in determining which tools he or
she may want to carry at any particular time. Also, by providing an
interchangeable system, it is not necessary to purchase multiple
independent systems, which can become costly because each
individual system requires its own framework and gate
mechanism.
[0131] As used in the claims, "a" means one or more. Also, the term
"automatically" as used in the claims means that there is no
additional manual activation required to perform the specified
action. For example, as discussed above with regard to certain
embodiments, a tool that slides onto a frame can be "automatically"
secured to the frame such that the automatic locking action takes
place without any manual activation of a switch or latch to secure
the tool to the frame.
[0132] The example embodiments being thus described, it will be
obvious that the same may be varied in many ways. Such variations
are not to be regarded as departure from the example embodiments,
and all such modifications as would be obvious to one skilled in
the art are intended to be included herein in the following
claims.
* * * * *